How CuVerro Kills Bacteria

The Science Behind Antimicrobial Copper

The mechanism by which antimicrobial copper kills bacteria is complex by nature, but the effect is simple. Science suggests that antimicrobial copper kills bacteria1 with a multifaceted attack. The questions and answers below summarize active and ongoing research seeking to explain the antimicrobial copper kill mechanism.

How does copper affect bacteria?

Science suggests that copper surfaces affect bacteria in two sequential steps: the first step is a direct interaction between the surface and the bacterial outer membrane, causing the membrane to rupture. The second is related to the holes in the outer membrane, through which the cell loses vital nutrients and water, causing a general weakening of the cell.

How can copper punch holes in a bacterium?

Every cell's outer membrane, including that of a single cell organism like a bacterium, is characterized by a stable electrical micro-current. This is often called "transmembrane potential" and is, literally, a voltage difference between the inside and the outside of a cell. It is strongly suspected that when a bacterium comes in contact with a copper surface, a short circuiting of the current in the cell membrane can occur. This weakens the membrane and creates holes. Another way to make a hole in a membrane is by localized oxidation. This happens when a single copper molecule, or copper ion, is released from the copper surface and hits a building block of the cell membrane (either a protein or a fatty acid). If the "hit" occurs in the presence of oxygen, we speak of oxidative damage.

After punching holes, how do copper ions further damage the cell?

Now that the cells main defense (its outer membrane) has been breached, there is an unopposed stream of copper ions entering the cell. This puts several vital processes within the cell in danger. Copper literally overwhelms the inside of the cell and obstructs cell metabolism (i.e., the biochemical reactions needed for life). These reactions are accomplished and catalyzed by enzymes. When excess copper binds to these enzymes, their activity grinds to a halt. The bacterium can no longer breathe, eat, digest, or create energy.

How can copper's effect be so fast, and affect such a wide range of microorganisms?

Experts explain the speed with which bacteria perish on copper surfaces by the multi-targeted nature of copper's effects. After membrane perforation, copper can inhibit enzymes and stop the cell from transporting or digesting nutrients, from repairing its damaged membrane, and from breathing or multiplying. It is also thought that this is why such a wide range of bacteria are susceptible to contact action by copper.

CuVerro®bactericidal copper alloys are the first solid surface registered by the EPA to kill 99.9% of the bacteria that can cause infections like MRSA, when cleaned regularly. Its efficacy is tested and proven, which makes CuVerro the ideal alternative to traditional materials for any environment.

Laboratory tests show that CuVerro is more effective at killing bacteria that cause disease compared to traditional materials often used as healthcare surfaces, such as stainless steel, plastic, and wood.

Several clinical trials have studied the efficacy of bactericidal copper, including clinical trials conducted in active Intensive Care Units and healthcare facilities. These studies support the results of the EPA GLP tests – copper alloys reduce bacteria continuously and consistently.*